Optimized preform feed

What is claimed is: 1. A device for transporting plastic preforms to a stretch blow molding machine comprising a feeder device, which transports the plastic preforms to a separating device, which is arranged in transport direction upstream of the stretch blow molding machine, a central distribution unit coupled to a main pneumatic supply line and comprising at least two valves, the central distribution unit configured to control actuation the at least two valves via compressed air from the main pneumatic supply line, wherein the feeder device comprises a pneumatically actuable blocking device, which in a first position deblocks the path of transport for the plastic preforms and in a second position blocks the path of transport for the plastic preforms, and wherein the blocking device is actuable by means of a cylinder, characterized in that a cylinder valve for controlling the cylinder is arranged in the immediate vicinity of the cylinder and the cylinder valve is coupled to a decentralized pneumatic supply line that branches from the main supply line prior to the central distribution unit. 2. The device as recited in claim 1 , characterized in that a pneumatic connection is provided between the cylinder and the valve, which pneumatic connection is shorter than 30 centimeters. 3. The device as recited in claim 1 , characterized in that the feeder device supports the plastic preforms in the process of guiding them, and characterized in that the blocking device is arranged on that side of the feeder device on which it is possible to create a larger gap between two consecutive preforms when the blocking device is inserted between these two preforms. 4. The device as recited in claim 1 , characterized in that central signal processing unit is directly connected with the cylinder valve via a bus system. 5. The device as recited in claim 1 , characterized in that the central signal processing unit is equipped with a separate output card, which is directly connected to the cylinder valve via a connection means. 6. The device as recited in claim 1 , wherein the feeder device comprises at least two surfaces, wherein the first surface guides the plastic preform in a hanging position and the second surface supports the plastic preform from the side, and said device further comprising an actuable blocking device, which in a first position deblocks the path of transport for the plastic preforms and in a second position blocks the path of transport for the plastic preforms, characterized in that the blocking device is arranged in a position below the first surface of the feeder device. 7. A system comprising: a plurality of plastic performs, each comprising a mouth section and a body section wherein at least a portion of the body section is narrower than the mouth section; a device for transporting plastic preforms to a stretch blow molding machine comprising a feeder device, which transports the plastic preforms, to a separating device, which is arranged in transport direction upstream of the stretch blow molding machine, wherein the feeder device comprises an actuable blocking device, which in a first position deblocks the path of transport for the plastic preforms and in a second position blocks the path of transport for the plastic preforms, characterized in that the blocking device is aligned to be inserted between two consecutive preforms in the area of the preform body sections that is narrower than the mouth sections. 8. The system as recited in claim 7 , characterized in that the blocking device is actuable pneumatically or electrically. 9. The system as recited in claim 7 , wherein the blocking device is actuable by means of a cylinder, characterized in that a cylinder valve for controlling the cylinder is arranged in the immediate vicinity of the cylinder and the cylinder valve is coupled to a decentralized pneumatic supply line that branches from the main supply line prior to a central distribution unit. 10. The system as recited in claim 9 , characterized in that a pneumatic connection is provided between the cylinder and cylinder valve, wherein the pneumatic connection is shorter than 30 centimeters. 11. The system recited in claim 9 , characterized in that a central signal processing unit is directly connected with the cylinder valve via a bus system. 12. The system recited in claim 9 , characterized in that a central signal processing unit is equipped with a separate output card, which is directly connected to the cylinder valve via a connection means. 13. A method for transporting plastic preforms having a mouth section and a body section, wherein at least a portion of the body section is narrower than the mouth section, to a stretch blow molding machine wherein the plastic preforms are transported by a feeder device along a transport path to a separating device, said method further involving a blocking device that is switched from a first position for deblocking the transport path to a second position for blocking the transport path, characterized in that a signal for actuating the blocking device is conveyed from a central signal processing unit directly to a valve via a bus system or via a connection means connected to a separate output card, wherein the blocking device is arranged in a position below the feeder device and aligned so that it is inserted between two consecutive preforms in the area of the preform body sections that is narrower than the mouth sections. 14. The method of claim 13 , wherein the blocking device is switched by means of a cylinder, characterized in that a cylinder valve for controlling the cylinder is arranged in the immediate vicinity of the cylinder and the cylinder valve is coupled to a decentralized pneumatic supply line that branches from the main supply line prior to a central distribution unit. 15. The method of claim 14 , wherein the cylinder valve and the cylinder have a pneumatic connection that is shorter than 30 centimeters.